SU1303927A1 - Method of magnetic powder checking - Google Patents

Description

f

The invention relates to the field of magnetic methods of non-destructive testing, in particular, to methods for determining the magnetization mode of products under magnetic control, and can be used in

all areas of engineering.

The purpose of the invention is to increase the accuracy and quality of the magnetic particle inspection, which is achieved due to a more early choice and the establishment of the magnetization mode of the local place (site) on the controlled product.

e. This value of Vd is compared to

The method is implemented with the aid of a set of 15 given induction value. By sigroystva. to control the magnetization mode during magnetic particle inspection.

The drawing shows a block diagram of the device for implementing the method.

The device contains a magnetizing unit 1 (flaw detector), in clamps (not labeled) of which the test article 2 is placed for magnetism, sensor 3 for measuring the tangential O component of the field, successively connected by a matching tangential element Hx the field component in the induction OBD of item 2, containing solenoid 6, the measuring coils 7 .and the control sample B, made of a material identical to the material of the controlled product 2

With block 5, connecting in series 35 those products gives an opportunity to more precisely

set the magnetization mode in magnetic powder control, using the Kjnii4aeT cases of passing defective products into operation due to

Induction B measuring unit 9 and LED indicator 10.

The method is carried out using the device as follows.

The controlled article 2 places an erroneous assignment of magnets in Nama lichivayr-1st node 1 and magnetization “The method can be found to be applied ei o. The value of tangential neneniya in all magnetic methods of non-destructive testing, namely in the systems of automatic installation of specified re; magnetization kims of controlled products in magnetic flaw detectors: and in the electric induction measuring devices.

45

The hi component of the field strength is removed from the sensor 3 installed on the tested section of the product 2. The signal from the sensor; and 3 through the matching element 4 is fed to the unit 5 converting H into induction. In block 5, sample 8 is preset and

on the surface of sample 8, performed- 50 f o p m u l a. and from the same material as the inspected product 2, it is maintained

p e

e ni

The method of magnetic particle inspection, which consists in that the magnetization of the tangential E component of the field, equal to P on the surface of the test product 2. Under this condition, t, e. with N. P, the corresponding tangential components of stress 039272 will also be equal.

These are FIELDS in the material of image 1 and 8 and in the material of product 2 $, which follows from the boundary conditions.

If the magnetic properties J of sample 8 and product 2 are identical, the values of magnetic inductions in sample 8 and product 2 will be respectively equal. Induction in sample 8 can be easily measured using measuring coils 7 and induction measuring unit B 9 of magnetized product 2. Measuring unit 9 induction signal enters induction indicator 10

ten

AT

e. This value of Vd is compared to

given induction value. By sig

 8 (with l-t

Papa mismatch, which is the difference between the measured and the set values of the induction, respectively, sets or changes the relation of magnification. The shape of the sample is chosen such that it does not measure :. However, it is possible to consider that this conditional effect is actually demagnetized, and this conditional is practically performed for the purposes of the magnetic particle inspection, if the length of the cylindrical specimen is ten or more times its diameter. Thus, from e; p induction in the sample - H.), it is possible to determine

OB - D

induction in the checked place of product 2.

The proposed method makes it possible to determine the induction E of the monitored month.

set the magnetization mode in magnetic powder control, using the Kjnii4aeT cases of passing defective products into operation due to

p e

e ni

f o rm y l a and s o b

The method of magnetic particle inspection, which consists in magnetizing a controlled product with a magnetic field, measures the tangential component of the field strength on its surface, and applies a magnetic field to the controlled area of the product.

31303927 .4

indicator in the form of a suspension or dried grain from the material of the product, affect

powder, and by the distribution of the particle by its measured value, the field, which is the last on the surface of the controlled or proportional to the tangential region, is judged on the presence of a defective component;

Comrade, characterized in that, "NDU TSII in the sample, taking into account which

that, in order to increase accuracy, they establish a magnetizing mode

quality control, use the product.

Claims (1)

The method of magnetic particle control, which consists in magnetizing the controlled product with a magnetic field, measuring the tangential component of the field strength on its surface, applying a magnetic indicator in the form of a suspension or dry powder on the controlled area of the product, and judging by the distribution of the particles of the latter on the surface of the controlled area defects, characterized in that, in order to improve the accuracy and quality of control, use a sample from the material of the product, affect it measured their assignment field equal to or proportional to the tangential component, determined by the value of the induction in the sample, given a set mode of magnetization of the product.